#include "scanner_manager.h" #include "../wrapper/hg_log.h" #include #include #include "raw_src.h" #include "char_const.h" #if !defined(WIN32) && !defined(_WIN64) #endif // kinds of scanners ... #define SCAN_PTR(ptr) ((hg_scanner*)ptr) #include "hg_scanner_200.h" #include "hg_scanner_239.h" #include "hg_scanner_300.h" #include "hg_scanner_400.h" #include "hg_scanner_302.h" #include "hg_scanner_402.h" /// /// supporting devices : static struct { uint16_t vid; // vendor ID uint16_t pid; // product ID std::string name; // product name std::string type; // product type std::string rsc; // USB resource, version-addr. e.g. "USB2.0-1" hg_scanner* (* create_scanner)(const char*, usb_io*, scanner_handle*); } g_supporting_devices[] = { #ifdef OEM_LISICHENG {0x31c9, 0x8200, SCANNER_NAME_LSC_G42S, "G42x0F", "", &hg_scanner_mgr::create_scanner_g300} , {0x31c9, 0x8420, SCANNER_NAME_LSC_G42S, "G426xF", "", &hg_scanner_mgr::create_scanner_g300} , {0x31c9, 0x8429, SCANNER_NAME_LSC_G42S, "G42x0F", "", &hg_scanner_mgr::create_scanner_empty} , {0x31c9, 0x8520, SCANNER_NAME_LSC_G52S, "G52x0F", "", &hg_scanner_mgr::create_scanner_g400} , {0x31c9, 0x8529, SCANNER_NAME_LSC_G52S, "G52x0F", "", &hg_scanner_mgr::create_scanner_g239} , {0x31c9, 0x8620, SCANNER_NAME_LSC_G62S, "G6290U", "", &hg_scanner_mgr::create_scanner_g100} , {0x31c9, 0x8629, SCANNER_NAME_LSC_G62S, "G6290U", "", &hg_scanner_mgr::create_scanner_g239} , {0x31c9, 0x8730, SCANNER_NAME_LSC_G73S, "G73x0U", "", &hg_scanner_mgr::create_scanner_g100} , {0x31c9, 0x8739, SCANNER_NAME_LSC_G73S, "G73x0U", "", &hg_scanner_mgr::create_scanner_g239} #elif defined(OEM_HANWANG) {0x2903, 0x1000, SCANNER_NAME_HW_1000, SCANNER_NAME_HW_1000, "",& hg_scanner_mgr::create_scanner_g300} // "HW-1060A" , {0x2903, 0x1002, SCANNER_NAME_HW_1002, SCANNER_NAME_HW_1002, "", &hg_scanner_mgr::create_scanner_g302} // "HW-1060A" , {0x2903, 0x7000, SCANNER_NAME_HW_7000, SCANNER_NAME_HW_7000, "", &hg_scanner_mgr::create_scanner_g400} // "HW-74x0WA" , {0x2903, 0x7002, SCANNER_NAME_HW_7002, SCANNER_NAME_HW_7002, "", &hg_scanner_mgr::create_scanner_g402} // "HW-7002" , {0x2903, 0x7039, SCANNER_NAME_HW_7039, SCANNER_NAME_HW_7039, "", &hg_scanner_mgr::create_scanner_g239} // "HW-7039F" , {0x2903, 0x8000, SCANNER_NAME_HW_8000, SCANNER_NAME_HW_8000, "", &hg_scanner_mgr::create_scanner_g239} // "HW-8090F" , {0x2903, 0x9000, SCANNER_NAME_HW_9000, SCANNER_NAME_HW_9000, "", &hg_scanner_mgr::create_scanner_g239} // "HW-9110E" #else {0x3072, 0x100, SCANNER_NAME_HG_G100, "GScanO200", "", &hg_scanner_mgr::create_scanner_g100} , {0x3072, 0x139, SCANNER_NAME_HG_G100, "GScanO1003399", "", &hg_scanner_mgr::create_scanner_g239} , {0x3072, 0x200, SCANNER_NAME_HG_G200, "GScanO200", "", &hg_scanner_mgr::create_scanner_g100} , {0x3072, 0x239, SCANNER_NAME_HG_G200, "GScanO1003399", "", &hg_scanner_mgr::create_scanner_g239} , {0x3072, 0x300, SCANNER_NAME_HG_G300, "GScanO400", "", &hg_scanner_mgr::create_scanner_g300} , {0x3072, 0x302, SCANNER_NAME_HG_G300, "GScanO400", "", &hg_scanner_mgr::create_scanner_g302} , {0x3072, 0x339, SCANNER_NAME_HG_G300, "GScanO1003399", "", &hg_scanner_mgr::create_scanner_empty} , {0x3072, 0x400, SCANNER_NAME_HG_G400, "GScanO400", "", &hg_scanner_mgr::create_scanner_g400} , {0x3072, 0x402, SCANNER_NAME_HG_G400, "GScanO4003399", "", &hg_scanner_mgr::create_scanner_g402} , {0x3072, 0x439, SCANNER_NAME_HG_G400, "GScanO1003399", "", &hg_scanner_mgr::create_scanner_g239} , {0x064B, 0x7823,SCANNER_NAME_HG_G200, "GScanO200", "", &hg_scanner_mgr::create_scanner_empty} #endif }; static std::string g_vendor = COMPANY_NAME; #define BRAND_LOGO_SIZE 8 * 1024 #define MOVE_TO_NEXT_STR(str) str += strlen(str) + 1 /// hg_scanner_mgr* hg_scanner_mgr::inst_ = NULL; sane_callback hg_scanner_mgr::event_callback_ = NULL; bool hg_scanner_mgr::async_io_enabled_ = false; int hg_scanner_mgr::ver_major_ = 1; int hg_scanner_mgr::ver_minor_ = 0; int hg_scanner_mgr::ver_build_ = 0; int hg_scanner_mgr::ver_patch_ = 1; std::string hg_scanner_mgr::pe_path_(""); std::string hg_scanner_mgr::pe_name_(""); hg_scanner_mgr::hg_scanner_mgr() : same_ind_(1) { usb_manager::instance()->register_hotplug(&hg_scanner_mgr::usb_event_handle, this); } hg_scanner_mgr::~hg_scanner_mgr() { usb_manager::clear(); } int hg_scanner_mgr::ui_default_callback(scanner_handle h, int ev, void* data, unsigned int* len, void* param) { // if (!hg_scanner_mgr::async_io_enabled_ && // ev == SANE_EVENT_IS_MEMORY_ENOUGH) // { // struct sysinfo si; // if(sysinfo(&si) == 0) // return si.freeram * si.mem_unit > *len + 200 * 1024 * 1024 ? SCANNER_ERR_OK : SCANNER_ERR_INSUFFICIENT_MEMORY; // return SCANNER_ERR_OK; // } if (hg_scanner_mgr::event_callback_) return hg_scanner_mgr::event_callback_(h, ev, data, len, param); return SCANNER_ERR_OK; } hg_scanner_mgr* hg_scanner_mgr::instance(sane_callback cb) { if (!hg_scanner_mgr::inst_) { hg_scanner_mgr::event_callback_ = cb; if (cb) hg_scanner_mgr::async_io_enabled_ = cb(NULL, SANE_EVENT_SUPPORT_ASYNC_IO, NULL, NULL, NULL) == 0; hg_scanner_mgr::inst_ = new hg_scanner_mgr(); VLOG_MINI_1(LOG_LEVEL_DEBUG_INFO, "async image transferring is %s\n", hg_scanner_mgr::async_io_enabled_ ? "enabled" : "disabled"); } return hg_scanner_mgr::inst_; } void hg_scanner_mgr::clear(void) { if (hg_scanner_mgr::inst_) { { std::lock_guard lock(hg_scanner_mgr::inst_->mutex_dev_); hg_scanner_mgr::event_callback_ = nullptr; } delete hg_scanner_mgr::inst_; hg_scanner_mgr::inst_ = NULL; } } void hg_scanner_mgr::set_version(int hh, int hl, int lh, int ll) { hg_scanner_mgr::ver_major_ = hh; hg_scanner_mgr::ver_minor_ = hl; hg_scanner_mgr::ver_build_ = lh; hg_scanner_mgr::ver_patch_ = ll; } void hg_scanner_mgr::set_exe_name(const char* path, const char* name) { hg_scanner_mgr::pe_path_ = path ? path : ""; hg_scanner_mgr::pe_name_ = name ? name : ""; } std::string hg_scanner_mgr::get_pe_name(std::string* path) { if (path) *path = hg_scanner_mgr::pe_path_; return hg_scanner_mgr::pe_name_; } hg_scanner* hg_scanner_mgr::create_scanner_empty(const char* name, usb_io* io, scanner_handle* h) { if (h) *h = nullptr; return nullptr; } hg_scanner* hg_scanner_mgr::create_scanner_g100(const char* name, usb_io* io, scanner_handle* h) { hg_scanner_200* s = new hg_scanner_200(name, 0x100, io); if (h) *h = s; return dynamic_cast(s); } hg_scanner* hg_scanner_mgr::create_scanner_g239(const char* name, usb_io* io, scanner_handle* h) { hg_scanner_239* s = new hg_scanner_239(name, 0x239, io); if (h) *h = s; return dynamic_cast(s); } hg_scanner* hg_scanner_mgr::create_scanner_g300(const char* name, usb_io* io, scanner_handle* h) { hg_scanner_300* s = new hg_scanner_300(name, 0x300, io); if (h) *h = s; return dynamic_cast(s); } hg_scanner* hg_scanner_mgr::create_scanner_g302(const char* name, usb_io* io, scanner_handle* h) { hg_scanner_302* s = new hg_scanner_302(name, 0x402, io); // image_process needs PID 402, we should add 302 ... if (h) *h = s; return dynamic_cast(s); } hg_scanner* hg_scanner_mgr::create_scanner_g400(const char* name, usb_io* io, scanner_handle* h) { hg_scanner_400* s = new hg_scanner_400(name, 0x400, io); if (h) *h = s; return dynamic_cast(s); } hg_scanner* hg_scanner_mgr::create_scanner_g402(const char* name, usb_io* io, scanner_handle* h) { hg_scanner_402* s = new hg_scanner_402(name, 0x402, io); if (h) *h = s; return dynamic_cast(s); } void hg_scanner_mgr::usb_event_handle(usb_event ev, libusb_device* device, int vid, int pid, int usb_ver_h, int usb_ver_l, bool* retry, void* user) // usb_ver_h.usb_ver_l { hg_scanner_mgr* obj = (hg_scanner_mgr*)user; obj->on_hgscanner_pnp(ev, device, vid, pid, usb_ver_h, usb_ver_l, retry); } void hg_scanner_mgr::on_hgscanner_pnp(usb_event ev, libusb_device* device, int vid, int pid, int usb_ver_h, int usb_ver_l, bool* retry) { char model[40], vendor[40]; SANE_Device_Ex de; int ev_ui = 0; scanner_handle h = NULL; unsigned int len = sizeof(de); std::string name(""), type(""); std::lock_guard lock(mutex_dev_); sprintf(model, "%x", pid); sprintf(vendor, "%x", vid); de.model = model; de.name = NULL; de.type = NULL; de.vendor = vendor; de.openned = SANE_FALSE; if (ev == USB_EVENT_DEVICE_ARRIVED) { int index = -1; for (int i = 0; i < _countof(g_supporting_devices); ++i) { if (g_supporting_devices[i].vid == vid && g_supporting_devices[i].pid == pid) { VLOG_MINI_1(LOG_LEVEL_DEBUG_INFO, "%s connected.\n", g_supporting_devices[i].name.c_str()); index = i; ev_ui = SANE_EVENT_DEVICE_ARRIVED; name = g_supporting_devices[i].name.c_str(); type = g_supporting_devices[i].type.c_str(); break; } } if (index != -1) { bool add = true; size_t i = 0; for (; i < online_devices_.size(); ++i) { if (online_devices_[i].dev == device) // 此处假定同一台设备重新连接后,设备对象“device”保持不变;如果假设不成立,会导致设备重连消息不能正常接收,绑定到该设备的scanner对象得不到释放 { online_devices_[i].ind = index; add = false; break; } } if (add) // 处理对象“device”改变的情景 { i = 0; for (auto& v : online_devices_) { if (v.ind == index && (v.scanner == NULL || !v.scanner->is_online())) { add = false; break; } i++; } } if (add) { OLSCANNER ols; ols.dev = device; ols.ind = index; ols.scanner = NULL; ols.display_name = g_supporting_devices[ols.ind].name; if (std::find(online_devices_.begin(), online_devices_.end(), ols.ind) != online_devices_.end()) { char buf[40]; sprintf(buf, " - %u", same_ind_++); ols.display_name += buf; } libusb_ref_device(ols.dev); // ref to the device of queue online_devices_ online_devices_.push_back(ols); name = ols.display_name; type = g_supporting_devices[ols.ind].type; } else if (online_devices_[i].scanner && !online_devices_[i].scanner->is_online()) { usb_io* io = NULL; name = online_devices_[i].display_name; type = g_supporting_devices[index].type; if (online_devices_[i].dev) libusb_unref_device(online_devices_[i].dev); online_devices_[i].dev = device; libusb_ref_device(online_devices_[i].dev); h = online_devices_[i].scanner; if (pid == 0x300 || pid == 0x400) std::this_thread::sleep_for(std::chrono::milliseconds(1000)); len = usb_manager::instance()->open(device, &io); if (len == SCANNER_ERR_OK) { VLOG_MINI_3(LOG_LEVEL_WARNING, "[%04x:%04x]%s re-connected.\n", pid, vid, online_devices_[i].display_name.c_str()); online_devices_[i].scanner->reset_io(io); de.openned = SANE_TRUE; } if (io) io->release(); add = false; } } } else if (ev == USB_EVENT_DEVICE_LEFT) { std::vector::iterator it = std::find(online_devices_.begin(), online_devices_.end(), device); if (it != online_devices_.end()) { ev_ui = SANE_EVENT_DEVICE_LEFT; name = it->display_name; type = g_supporting_devices[it->ind].type; h = it->scanner; VLOG_MINI_1(LOG_LEVEL_DEBUG_INFO, "%s Dis-connected.\n", name.c_str()); if (it->scanner) it->scanner->io_disconnected(); else { libusb_unref_device(it->dev); // unref the device of queue online_devices_ online_devices_.erase(it); } } } if (ev_ui) { de.name = name.c_str(); de.type = type.c_str(); hg_scanner_mgr::ui_default_callback(h, ev_ui, &de, &len, NULL); } } void hg_scanner_mgr::get_online_devices(std::vector& devs) { std::lock_guard lock(mutex_dev_); devs = online_devices_; } void hg_scanner_mgr::set_appendix_info_for_about(SANE_About* about, char*& ptr, int& count, const char* key, const char* info, const char* url) { #ifdef BRAND_DISPLAY_ALL_EXPAND if (!info || *info == 0) info = BRAND_COMMUNICATION_FAIL; #endif if (info && strlen(info)) { about->appendix[count].key = ptr; strcpy(ptr, key); MOVE_TO_NEXT_STR(ptr); about->appendix[count].content = ptr; strcpy(ptr, info); MOVE_TO_NEXT_STR(ptr); if (url) { about->appendix[count++].url = ptr; strcpy(ptr, url); MOVE_TO_NEXT_STR(ptr); } else count++; } } scanner_err hg_scanner_mgr::get_about_info(scanner_handle h, void* data, unsigned* len) { hg_scanner* scanner = (hg_scanner*)h; unsigned bytes = sizeof(SANE_About) + 40; SANE_About tmp; bytes += sizeof(g_logo); bytes += strlen(BRAND_APP_NAME) + 8; bytes += strlen(BRAND_TITLE_VERSION) + 8; bytes += strlen(BRAND_TITLE_COPYRIGHT) + 8; bytes += strlen(BRAND_COPYRIGHT) + 8; bytes += strlen(BRAND_TITE_MANUFACTOR) + 8; bytes += strlen(BRAND_TITLE_URL) + 8; bytes += strlen(BRAND_COMPANY_URL) + 8; bytes += strlen(BRAND_URL_COMPANY_URL) + 8; bytes += strlen(BRAND_TITLE_TEL) + 8; bytes += strlen(BRAND_COMPANY_TEL) + 8; bytes += strlen(BRAND_TITLE_ADDRESS) + 8; bytes += strlen(BRAND_COMPANY_ADDRESS) + 8; bytes += strlen(BRAND_TITLE_GPS) + 8; bytes += strlen(BRAND_COMPANY_GPS) + 8; bytes += strlen(BRAND_URL_GPS) + 8; // bytes += 5 * sizeof(tmp.appendix[0]); #ifndef BRAND_DISPLAY_ALL_EXPAND if (scanner) #endif { bytes += sizeof(tmp.appendix[0]) + BRAND_INFO_MAX_LENGTH + 8 + strlen(BRAND_TITLE_FIRM_VERSION) + 8; bytes += sizeof(tmp.appendix[0]) + BRAND_INFO_MAX_LENGTH + 8 + strlen(BRAND_TITLE_SERIAL_NUM) + 8; bytes += sizeof(tmp.appendix[0]) + BRAND_INFO_MAX_LENGTH + 8 + strlen(BRAND_TITLE_IP) + 8; bytes += sizeof(tmp.appendix[0]) + 28 + strlen(BRAND_TITLE_ROLLER_COUNT) + 8; bytes += sizeof(tmp.appendix[0]) + 28 + strlen(BRAND_TITLE_HISTORY_COUNT) + 8; bytes += sizeof(tmp.appendix[0]); } if (!data || *len < bytes) { *len = bytes; return SCANNER_ERR_INSUFFICIENT_MEMORY; } // filling info to flat buffer ... SANE_About* about = (SANE_About*)data; std::string info(""); char* ptr = (char*)data + sizeof(SANE_About) + 9 * sizeof(about->appendix[0]); about->title = ptr; strcpy(ptr, BRAND_APP_NAME); MOVE_TO_NEXT_STR(ptr); about->version = ptr; sprintf(ptr, "%d.%d.%d.%d", hg_scanner_mgr::ver_major_, hg_scanner_mgr::ver_minor_, hg_scanner_mgr::ver_build_, hg_scanner_mgr::ver_patch_); MOVE_TO_NEXT_STR(ptr); about->copyright = ptr; strcpy(ptr, BRAND_COPYRIGHT); MOVE_TO_NEXT_STR(ptr); about->logo_bytes = sizeof(g_logo);; memcpy(ptr, g_logo, about->logo_bytes); ptr += about->logo_bytes + 1; int count = 0, rolls = 0; set_appendix_info_for_about(about, ptr, count, BRAND_TITE_MANUFACTOR, g_vendor.c_str(), NULL); set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_URL, BRAND_COMPANY_URL, BRAND_URL_COMPANY_URL); set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_TEL, BRAND_COMPANY_TEL, NULL); set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_ADDRESS, BRAND_COMPANY_ADDRESS, NULL); set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_GPS, BRAND_COMPANY_GPS, BRAND_URL_GPS); if (scanner) { set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_FIRM_VERSION, scanner->get_firmware_version().c_str(), NULL); set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_SERIAL_NUM, scanner->get_serial_num().c_str(), NULL); info = scanner->get_ip(); if(info.length()) set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_IP, info.c_str(), NULL); rolls = scanner->get_roller_num(); if (rolls >= 0) { char buf[40]; sprintf(buf, "%u", rolls); set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_ROLLER_COUNT, buf, NULL); } #ifdef BRAND_DISPLAY_ALL_EXPAND else set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_ROLLER_COUNT, rolls == -1 ? BRAND_COMMUNICATION_FAIL : BRAND_DEVICE_NOT_SUPPORT, NULL); #endif rolls = scanner->get_history_count(); if (rolls >= 0) { char buf[40]; sprintf(buf, "%u", rolls); set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_HISTORY_COUNT, buf, NULL); } #ifdef BRAND_DISPLAY_ALL_EXPAND else set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_HISTORY_COUNT, rolls == -1 ? BRAND_COMMUNICATION_FAIL : BRAND_DEVICE_NOT_SUPPORT, NULL); #endif } #ifdef BRAND_DISPLAY_ALL_EXPAND else { set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_FIRM_VERSION, BRAND_NO_DEVICE, NULL); set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_SERIAL_NUM, BRAND_NO_DEVICE, NULL); set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_IP, BRAND_NO_DEVICE, NULL); set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_ROLLER_COUNT, BRAND_NO_DEVICE, NULL); set_appendix_info_for_about(about, ptr, count, BRAND_TITLE_HISTORY_COUNT, BRAND_NO_DEVICE, NULL); } #endif about->appendix[count].key = NULL; about->appendix[count].content = NULL; about->appendix[count].url = NULL; return SCANNER_ERR_OK; } scanner_err hg_scanner_mgr::hg_scanner_enum(ScannerInfo* scanner_list, long* count, bool local_only) { std::vector devusbuf; long size = *count; scanner_err ret = SCANNER_ERR_OK; get_online_devices(devusbuf); *count = devusbuf.size(); if (*count > size) { ret = SCANNER_ERR_INSUFFICIENT_MEMORY; } else { for (size_t i = 0; i < devusbuf.size(); i++) { scanner_list->vid = g_supporting_devices[devusbuf[i].ind].vid; scanner_list->pid = g_supporting_devices[devusbuf[i].ind].pid; strcpy(scanner_list->name, g_supporting_devices[devusbuf[i].ind].name.c_str()); strcpy(scanner_list->type, g_supporting_devices[devusbuf[i].ind].type.c_str()); sprintf(scanner_list->model, "%x", g_supporting_devices[devusbuf[i].ind].pid); strcpy(scanner_list->vendor, g_vendor.c_str()); scanner_list++; } } return ret; } scanner_err hg_scanner_mgr::hg_scanner_open(scanner_handle* h, const char* name, bool shared, const char* user, const char* pwd, const char* check, char* rsc) { std::vector devs; std::vector::iterator it; usb_io* io = NULL; scanner_err ret = SCANNER_ERR_DEVICE_NOT_FOUND; *h = NULL; get_online_devices(devs); it = std::find(devs.begin(), devs.end(), name); if (it != devs.end()) { std::string msg(""); ret = (scanner_err)usb_manager::instance()->open(it->dev, &io, &msg); if (ret == SCANNER_ERR_OK) { hg_scanner* scanner = g_supporting_devices[it->ind].create_scanner(g_supporting_devices[it->ind].name.c_str(), io, h); if (!scanner) { if (g_supporting_devices[it->ind].pid == 0x100 || g_supporting_devices[it->ind].pid == 0x200 || g_supporting_devices[it->ind].pid == 0x8620 || g_supporting_devices[it->ind].pid == 0x8730) { hg_scanner_200* s200 = new hg_scanner_200(g_supporting_devices[it->ind].name.c_str(), 0x100, io); scanner = dynamic_cast(s200); *h = (scanner_handle)s200; } else if (g_supporting_devices[it->ind].pid == 0x239 || g_supporting_devices[it->ind].pid == 0x139 || g_supporting_devices[it->ind].pid == 0x8000 || g_supporting_devices[it->ind].pid == 0x9000 || g_supporting_devices[it->ind].pid == 0x8739 || g_supporting_devices[it->ind].pid == 0x8629 || g_supporting_devices[it->ind].pid == 0x0439 || g_supporting_devices[it->ind].pid == 0x7039 || g_supporting_devices[it->ind].pid == 0x8529) { hg_scanner_239* s239 = new hg_scanner_239(g_supporting_devices[it->ind].name.c_str(), 0x239, io); scanner = dynamic_cast(s239); *h = (scanner_handle)s239; } else if (g_supporting_devices[it->ind].pid == 0x400 || g_supporting_devices[it->ind].pid == 0x7000 || g_supporting_devices[it->ind].pid == 0x8520) { hg_scanner_400* s400 = new hg_scanner_400(g_supporting_devices[it->ind].name.c_str(), 0x400, io); scanner = dynamic_cast(s400); *h = (scanner_handle)s400; } else if (g_supporting_devices[it->ind].pid == 0x300 || g_supporting_devices[it->ind].pid == 0x1000 || g_supporting_devices[it->ind].pid == 0x8420) { hg_scanner_300* s300 = new hg_scanner_300(g_supporting_devices[it->ind].name.c_str(), 0x300, io); scanner = dynamic_cast(s300); *h = (scanner_handle)s300; } } if (scanner) { scanner->set_ui_callback(&hg_scanner_mgr::ui_default_callback, hg_scanner_mgr::async_io_enabled_); scanner->set_read_over_with_no_data(STRICMP(hg_scanner_mgr::pe_name_.c_str(), "xsane") == 0); } std::lock_guard lock(mutex_dev_); std::vector::iterator ptr = std::find(online_devices_.begin(), online_devices_.end(), name); if (ptr != online_devices_.end()) ptr->scanner = (hg_scanner*)*h; } else if(msg.length()) hg_scanner_mgr::ui_default_callback(nullptr, SANE_EVENT_ERROR, (void*)msg.c_str(), (unsigned int*)&ret, nullptr); if(io) io->release(); } return *h ? SCANNER_ERR_OK : ret; } scanner_err hg_scanner_mgr::hg_scanner_close(scanner_handle h, bool force) { { std::lock_guard lock(mutex_dev_); for (size_t i = 0; i < online_devices_.size(); ++i) { if (online_devices_[i].scanner == h) { online_devices_[i].scanner = NULL; break; } } } SCAN_PTR(h)->close(force); delete SCAN_PTR(h); return SCANNER_ERR_OK; } scanner_err hg_scanner_mgr::hg_scanner_get_parameter(scanner_handle h, unsigned param_no, char* data, long* len) { if (!len) return SCANNER_ERR_INVALID_PARAMETER; int l = *len, err = SCAN_PTR(h)->get_setting(param_no, data, &l); *len = l; return (scanner_err)err; } scanner_err hg_scanner_mgr::hg_scanner_set_parameter(scanner_handle h, unsigned param_no, void* data, long len) { return (scanner_err)SCAN_PTR(h)->set_setting(param_no, data, len); } scanner_err hg_scanner_mgr::hg_scanner_start(scanner_handle h, void* async_event, int num) { return (scanner_err)SCAN_PTR(h)->start(); } scanner_err hg_scanner_mgr::hg_scanner_stop(scanner_handle h) { return (scanner_err)SCAN_PTR(h)->stop(); } scanner_err hg_scanner_mgr::hg_scanner_get_img_info(scanner_handle h, SANE_Parameters* bmi, long len) { return (scanner_err)SCAN_PTR(h)->get_image_info(bmi); } scanner_err hg_scanner_mgr::hg_scanner_read_img_data(scanner_handle h, unsigned char* data, long* len) { if (!len) return SCANNER_ERR_INVALID_PARAMETER; int l = *len, err = SCAN_PTR(h)->read_image_data(data, &l); *len = l; return (scanner_err)err; } scanner_err hg_scanner_mgr::hg_scanner_get_status(scanner_handle h, int setstutas) { return (scanner_err)SCAN_PTR(h)->status(); } scanner_err hg_scanner_mgr::hg_scanner_reset(scanner_handle h) { return (scanner_err)SCAN_PTR(h)->reset(); } scanner_err hg_scanner_mgr::hg_scanner_control(scanner_handle h, unsigned long code, void* data, unsigned* len) { //if (!len && code != IO_CTRL_CODE_TEST_SINGLE) // return SCANNER_ERR_INVALID_PARAMETER; if (code == IO_CTRL_CODE_ABOUT_INFO) return get_about_info(h, data, len); else if (code == IO_CTRL_CODE_GET_LOG_FILE && len && *len == LOG_FILE_DRIVER) { if (!data) return SCANNER_ERR_INVALID_PARAMETER; std::string f(hg_log::log_file_path()); if (f.empty()) *((char*)data) = 0; else strcpy((char*)data, f.c_str()); return SCANNER_ERR_OK; } else if (!h) return SCANNER_ERR_INVALID_PARAMETER; else return (scanner_err)SCAN_PTR(h)->device_io_control(code, data, len); }